DE630786C - Electron tubes - Google Patents

Description

Electron tube Tubes with no penetration along the cathode axis Is constant, but changes according to a certain law, have the property that their discharge current as a function of the grid voltage and anode voltage a shows legality deviating from the V3 / 2 law. The possibility within certain limits the discharge characteristics through appropriately selected penetration to change arbitrarily, one has in the last time with the tubes with changeable Penetration served: Primarily, such tubes are suitable for the purposes of Volume control by changing the grid tension.

The ability to arbitrarily change the discharge function, but is not exhausted by the previously known type of tubes. So you can z. B. by having any electrode, e.g. B. grid or anode, so builds that along it a certain tension curve is given, within certain limits Establish discharge characteristics with a specified course. Is known z. B., that due to the voltage drop along the cathode, the discharge characteristics of a tube in reality do not follow the V3 / 2 law, but the V5 / 2 law, i. H. generally show a flatter course for small currents. This almost always as an inconvenience perceived phenomena have not yet been technically exploited. On the contrary, one has always endeavored to reduce the influence of that occurring along the filament Compensate for the voltage drop on the characteristic curve by, for example sent a direct current of such magnitude and direction through the control grid, that the DC voltage difference between opposite points of the grid and the cathode was constant over the entire length of the cathode. Another to the same Purpose applied measure consisted in the conical design of the grille or the anode or an uneven wrapping of the grid with one of one End of the cathode to the other increasing slope; this way should go through Influence of the penetration curve along the cathode the effect of the voltage drop be balanced on the filament.

According to the invention of the possibility, along a not for the Electron emission specific electrode by sending a through it Current to generate a voltage drop, in such a way that use is made Achievement of a deviating from the E3 / 2 law, for example logarithmic or exponential characteristics of the electrode through which current flows Series resistance is designed so that the voltage drop is longitudinal the same is a non-linear function of the location.

For the implementation of the concept of the invention, different ones open up We can z. B. the grid of a Röli: train in such a way that you look at the individual Grid wires are electrically connected to each other only through a grid brace made of resistance material connected thinks, with the lattice brace one in a suitable manner from place to Place changing series resistance has by being made of 'material of different conductivity or different thick cross-section is built. If you send electricity through one of these Grid, a voltage drop occurs along this grid, the course of which is from the formation of the grid cross-section or the conductivity of the material on the depends on the body concerned. The potential profile along the grid is in a certain relationship to the shape of the discharge curve.

Such a tube can be made by making suitable cuts Think of the partial tubes disassembled in such a way that for each individual partial tube different electrical, d. H. Tension relationships are decisive, with these relationships varying from place to place Place, d. H. so z. B. determined along the longitudinal axis of the electrode system according to e_ inem Law vary.

So you can z. B. a variation in voltage along the filament, along the control grid, along a control grid arranged for any purpose or along the anode. The concept of the longitudinal axis is only used here has been chosen for the sake of clarity. Systems,: the 'no outspoken Long axis, Unnen can be thought of as being broken down into other forms, at least always in such a way that it makes sense to break down the tube into independent elementary tubes to speak.

Claims (1)

PATENT CLAIMS: i .. Electron tube in which a voltage drop can be generated along an electrode not intended for the purpose of electron emission by passing a current, characterized in that for the purpose of achieving a law deviating from the E3 / 2 law, for example logarithmic or exponential Characteristic the current-carrying electrode is designed in terms of its series resistance so that the voltage drop along the same is a non-linear function of the location. z. Electron tube according to claim i, characterized. characterized in that the current-carrying parts of the electrode are composed of materials of different conductivity. 3. Electron tube according to claim i, characterized in that the current-carrying parts of the electrode have different cross-sections.